@article{oai:ir.kagoshima-u.ac.jp:00002178,
 author = {布施, 肇 and FUSE, Hajime and 小山, 隆行 and OYAMA, Takayuki and 下吉, 光明 and SHIMOYOSHI, Mitsuaki and 加治屋, 厚廣 and KAJIYA, Atsuhiro},
 journal = {鹿児島大学工学部研究報告, The research reports of the Faculty of Engineering, Kagoshima University},
 month = {Nov},
 note = {In this research the cylinder diameter was changed and it was investigated what kind of heat transfer mechanism occurred. The following conclusions are drawn. (1) The rear heat transfer is determined by the magnitude of the diffusion effect in the case of a larger diameter. (2) In the case of a smaller diameter, the the development of the shear layer is prevented by the low frequency components of a free-stream, and the rear hear transfer decreases at Re=7000 and Re=10000. However, at a larger Reynolds number, the energy of a shear layer vortex increases, and the energy increases in the vicinity of the rear stagnation point, as well. Therefore, the rear heat transfer increases.},
 pages = {7--15},
 title = {円柱背面における熱伝達機構 : 円柱直径の背面熱伝達への影響},
 volume = {29},
 year = {1987}
}